December 1 - 6, 2024
Boston, Massachusetts
Symposium Supporters
2024 MRS Fall Meeting & Exhibit
PM02.11.05

Superlative Mechanical Energy Absorbing Efficiency Discovered Through Self-Driving Lab-Human Partnership

When and Where

Dec 6, 2024
10:00am - 10:30am
Hynes, Level 2, Room 203

Presenter(s)

Co-Author(s)

Keith Brown1,Kelsey Snapp1,Benjamin Verdier1,Aldair Gongora1,Samuel Silverman1,Adedire Adesiji1,Elise Morgan1,Tim Lawton2,Emily Whiting1

Boston University1,U.S. Army2

Abstract

Keith Brown1,Kelsey Snapp1,Benjamin Verdier1,Aldair Gongora1,Samuel Silverman1,Adedire Adesiji1,Elise Morgan1,Tim Lawton2,Emily Whiting1

Boston University1,U.S. Army2
Energy absorbing efficiency is a key determinant of a structure’s ability to provide mechanical protection and is defined by the amount of energy that can be absorbed prior to stresses increasing to a level that damages the system to be protected. Here, we explore the energy absorbing efficiency of additively manufactured polymer structures by using a self-driving lab (SDL) to perform >25,000 physical experiments on generalized cylindrical shells. We use a human-SDL collaborative approach where experiments are selected from over trillions of candidates in an 11-dimensional parameter space using Bayesian optimization and then automatically performed while the human team monitors progress to periodically modify aspects of the system. The result of this human-SDL campaign is the discovery of a structure with a 75.2% energy absorbing efficiency and a library of experimental data that reveals transferable principles for designing tough structures.

Keywords

autonomous research | toughness

Symposium Organizers

Grace Gu, University of California, Berkeley
Yu Jun Tan, National University of Singapore
Ryan Truby, Northwestern University
Daryl Yee, École Polytechnique Fédérale de Lausanne

Session Chairs

Yu Jun Tan
Daryl Yee

In this Session